CN1441788A - Novel arylethene-sulfonamides compounds - Google Patents

Novel arylethene-sulfonamides compounds Download PDF

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CN1441788A
CN1441788A CN01812669A CN01812669A CN1441788A CN 1441788 A CN1441788 A CN 1441788A CN 01812669 A CN01812669 A CN 01812669A CN 01812669 A CN01812669 A CN 01812669A CN 1441788 A CN1441788 A CN 1441788A
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short
pyrimidine
chain alkyl
phenyl
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CN100562518C (en
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克里斯托夫·博斯
马丁·博利
马丁内·克洛泽尔
瓦尔特·菲施利
托马斯·韦勒
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Actelion Pharmaceuticals Ltd
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Abstract

The invention relates to novel aryl-ethene sulfonamides and their use as active ingredients in the preparation of pharmaceutical compositions. The invention also concerns related aspects including processes for the preparation of the compounds, pharmaceutical compositions containing one or more of those compounds and especially their use as endothelin receptor antagonists.

Description

Novel arylethene-sulfonamides compounds
Patent of the present invention is about the arylethene-sulfonamides compounds shown in the general molecular formula I of novelty, comprise and contain the use as active substance in the preparation of medical medicine of this compounds, and other all many-side relevant with this compounds, as the preparation process of this compounds, contain medicinal composition, especially this compounds of compound shown in one or more general molecular formulas I as the application of endothelin antagonist.
Endothelin (ET-1, ET-2 and ET-3) is a class 21-amino acid polypeptide compounds, they almost can be by all cell tissue manufacturings, and almost all have activity (Yanagisawa M et al.:Nature (1988) 332:411) in all cell tissue.The endothelin compounds is the important medium (McMillen MA et al.:J Am Coll Surg (1995) 180:621) of strong effectively vasoconstrictor and heart, kidney, internal secretion, immunologic function.The activation of their participation bronchoconstriction, the release of regulating neurotransmitters, inflammatory cell, fibrosis, cell proliferation, cytodifferentiation or the like physiological process (Rubanyi GMet al.:Pharmacol Rev (1994) 46:328).
In Mammals, two kinds of endothelin receptor (ET have been arranged A, ET B) cloned and identify out (AraiH et al.:Nature (1990) 348:730; Sakurai T et al.:Nature (1990) 348:732).ET AAcceptor wants high for the avidity of the avidity comparison ET-3 of ET-1 and ET-2, and they are in the ascendance with regulating in vasoconstriction, the proliferative response in the vessel smooth muscle cell.(Ohlstein?E?Het?al.;Drug?Dev?Res(1993)29:108)。Corresponding with it, that different is ET BAcceptor has identical avidity for 3 kinds of different polypeptide compounds of endothelin, and can be in conjunction with endothelin, 4-L-Ala endothelin and saramycetin S6C (Ogawa Y et al.; BBRC (1991) 178:248).This receptoroid is present in vascular endothelium and the unstriated muscle, and enrichment in lung and brain equally.Be present in the ET in the vasodilator of endotheliocyte BAcceptor comes ET-1 and ET-3 are reacted by discharging nitrogen protoxide or/and prostacyclin.And be present in ET in the unstriated muscle BProduce effect by vasoconstriction.(SumnerMJ?et?al.;Brit?J?Pharmacol(1992)107:858)。ET AAcceptor and ET BAcceptor is structurally highly similar and all belong to the Superfamily of G-protein coupled receptor.
In the observation process of multiple diseases, such as hypertension, sepsis, congee sample arteriosclerosis, Acute Myocardial Infarction, congestive heart failure, renal failure, migraine, asthma or the like, carry out pathology and physiological process is identified by the increase of content of ET-1 in blood plasma and the tissue, endothelin-receptor antagonists efficacious agents on as therapeutics is studied widely.Endothelin-receptor antagonists on treatment various diseases (overstretched, the nervosa inflammation of the subarachnoid hemorrhage that causes as cerebral vasospasm, heart failure, lung and system, renal failure and myocardial infarction or the like), demonstrated clinically or/non-effectiveness clinically.
Now, non-endothelin-receptor antagonists class medicine also goes on the market, and has several drugs carrying out clinical trial.Yet these compound molecules all exist some weakness, as the building-up process complexity, poorly soluble, molecular weight is too high, drug metabolism differential force and have problem (as the increase of enzyme in the liver) of secure context or the like.
Compound shown in the general molecular formula I is described in following test process the active testing method of the inhibition of endothelin receptor.
In order to estimate the drug effect of the compound shown in the molecular formula I, used following testing method:
1) endothelin is transported the testing method of the inhibition of human ET acceptor in conjunction with the Chinese hamster ovary celI film:
In order to investigate binding ability, used ET in the expression human body AAnd ET BThe Chinese hamster ovary celI film of acceptor is studied, and has prepared the microsomal membrane of recombinant chou Chinese hamster ovary celI, and has carried out chemical examination (Breu V., et al, the FEBS Lett (1993) of binding ability with previously described method; 334:210).
Chemical examination is carried out in the polypropylene microtiter plates, contain 200 microlitres, 50 mmoles/liter Tutofusin tris/hydrochloride buffer, the pH value equals 7.4, and contain 25 mmoles/liter manganous chloride, 1 mmole/liter ethylenediamine tetraacetic acid (EDTA) and 0.5% (mass/volume than) BSA (no proteolytic enzyme bovine serum albumin).The cytolemma and the 8pM[that will contain 0.5 micrograms of protein 125I] ET-1 (solution of 4000cpm is 20 ℃ of hatchings 2 hours, and increases the concentration of the antibody of not demarcating.Do not contain and contain 100 nmoles/liter the situation of ET-1 under, measure minimum and maximum bonding force respectively.After 2 hours, cytolemma filters (employed unique filtering table is purchased in Canberra Packard S.A. Zurich, Switzerland) with the filter disc that contains the GF/C strainer.And adding the flicker cocktail solution (MicroScint 20, Canberra PackardS.A. Zurich, Switzerland) of 50 microlitres, filter disc is counted with a little dish counter (TopCount, Canberra PackardS.A. Zurich, Switzerland).
All tested compounds add also dilution of methyl-sulphoxides dissolving, and chemical examination is carried out containing under the condition of 2.5% methyl-sulphoxide, has identified that methyl-sulphoxide is not to there being tangible interference effect in conjunction with force measurement.IC 50Be used as concentration with 50% inhibition ET-1 keying action.For object of reference, measure IC with following method 50Value: ET ACell: for ET-1, its concentration is 0.075 nmole/liter (n=8), and for ET-3, its concentration is 118 nmoles/liter (n=8); ET BCell: for ET-1, its concentration is 0.067 nmole/liter (n=8), and for ET-3, its concentration is 0.092 nmole/liter (n=3).
The IC of the compound shown in the resulting molecular formula I 50Value see Table 1.
2) to isolated mouse aortic annulus (ET AAcceptor) and mouse tracheal ring (ET BThe inhibiting testing method of the endothelin inductive contraction acceptor):
The functionalization of endothelin antibody suppresses to render a service, and is for by mouse aortic annulus (ET by them AThe inhibition ability of the ET-1 inductive contraction acceptor) and for by mouse tracheal ring (ET BThe inhibition ability of the saramycetin S6c inductive contraction acceptor) is tested and is estimated.The big white mouse that grows up is anaesthetized the back bloodletting, and the Aorta or the tracheae of chest be cut, separate the ring that forms the 3-5 millimeter.Remove endotheliocyte/epithelial cell by the intimal surface that rubs lightly.The outstanding bubble of each vascular girdle 10 milliliters be equipped with Krebs-Henseleit solution (unit: mmole/liter; Sodium-chlor: 115, Repone K: 4.7, sal epsom: 1.2, potassium primary phosphate: 1.5, sodium bicarbonate: 25, calcium chloride: 2.5, glucose: in the isolation tank 10), keep 37 ℃ and charge into 95% oxygen and 5% carbon dioxide.Vascular girdle is connected on the force transducer and writes down permanent length drawing force (EMKA Technologies SA, Paris, France).Measure the drawing force that vascular girdle is stretched to immobilized 3 grams (for arterial) or 2 grams (for tracheae).After testing compound and their carrier are hatched 10 minutes, add the ET-1 (for arterial) or the saramycetin S6c (for tracheae) of cumulative dosage, by calculating concentration ratio, that is to say by the testing compound of metering different concns and induce EC 50Drift to the right, the functionalization of estimating testing compound suppresses to render a service.EC 50Be the concentration that reaches the required endothelin of the half-peak value of contraction, pA 2Be to induce EC 50The negative logarithm of the antibody concentration that the value twice-folded moves.The pA of the compound shown in the resulting molecular formula 2Value sees Table 2. Table 1:
Example compound IC 50[nM] ET A?????ET B
Example 1 1.8?????569
Example 2 25.4????1835
Example 3 46.3????722
Example 6 82.4????1351
Example 13 28.7????3989
Example 4 273.4???8605
Example 11 18.53???264.2
Example 12 52.1????532
Example 5 12.8????129.5
Example 14 4.75????841
Example 15 17.98???2129
Example 16 62.2????1125
Example 21 14.67???749
Example 23 8.2?????270
Example 24 21.7????657
Example 27 11.5????193
Example 30 41.8????9075
Example 36 20??????3392
Example 40 6.2?????629
Example 41 5.4?????1781
Example 43 4.6?????408
Example 45 19.3????332
Example 46 41.7????541
Example 47 7.04????752
Example 48 10.6????832
Example 49 27.2????4143
Example 50 30.99???6894
Example 51 ??4.56????173
Example 52 ??7.5?????1487
Example 53 ??21??????1362
Example 54 ??14??????183
Example 58 ??24??????277
Example 60 ??30??????558
Example 62 ??58??????4905
Example 65 ??17??????2517
Example 67 ??7.8?????752
Example 69 ??6???????1647
Example 70 ??16??????258
Example 71 ??17??????507
Example 72 ??9???????2385
Example 73 ??7.6?????4757
Example 74 ??7.8?????3526
Example 75 ??17.6??>10000
Example 80 ??19.7????2569
Example 83 ??27.5????7589
Example 85 ??3.8?????238
Example 86 ??4.6?????193
Example 87 ??3.9?????439
Example 88 ??6???????496
Example 89 ??4.6?????1221
Example 90 ??4.3?????336
Example 92 ??20??????7470
Example 95 ??33??????8391
Example 101 ??30.7????8682
Example 104 ??54??????8336
Example 107 ??8.5?????4645
Example 109 ??39????>10000
Example 113 ??14.7??>10000
Example 114 ??18.4????3876
Example 116 ??24.9??>10000
Example 117 ??7.9?????4339
Example 118 ??9.8?????1005
Example 119 ??55??????735
Example 120 ??38.7????1630
Example 124 ??33.2????309
Example 125 ??6.7?????2700
Example 126 ??9???????3644
Example 127 ??14.2????2755
Example 132 ??5.7?????1660
Example 133 ??8.2?????1770
Example 134 ??6.3?????4895
Example 138 ??4.4?????1335
Example 139 ??9.8?????1688
Example 140 ??12.5????1090
Example 144 ??10??????3059
Example 145 ??9.1?????2385
Example 146 ??7.8?????3526
Example 147 ??7.6?????4757
Example 152 ??43.3????4822
Example 157 ??21.7????4505
Example 158 ??12.1????1259
Example 159 ??7.3?????2277
Example 160 ??12.9????757
Example 164 ??10??????1564
Example 166 ??15??????756
Example 173 ??4.2????976
Example 174 ??6.7????1010
Example 175 ??4.7????499
Example 176 ??4.1????1079
Example 177 ??5.5????363
Example 178 ??5??????671
Example 179 ??9??????699
Example 180 ??7.4????1027
Example 181 ??7.1????1977
Example 182 ??16.7???1405
Example 193 ??2.6????537
Example 194 ??7.8????627
Example 195 ??6??????293
Example 196 ??4.7????427
Example 197 ??5??????220
Example 198 ??7.9????595
Example 202 ??2.4????349
Example 203 ??3.4????249
Example 204 ??3.3????138
Example 211 ??38?????2638
Example 214 ??39?????3942
Example 222 ??41?????506
Example 225 ??5.2????830
Example 226 ??15.4???1547
Example 227 ??4.3????145
Example 228 ??14.5???3911
Example 230 ??12.3???937
Example 232 ??10?????290
Example 240 ??26?????3126
Table 2:
Example compound pA 2Value ET A?????ET B
Example 1 ?8.73????7.09
Example 14 ?8.67
Example 15 ?7.57
Example 43 ?9.07
Example 67 ?9.5
Example 80 ?8.35?????5.21
Example 85 ?9.07
Example 92 ?7.91
Example 140 ?8.73
Example 152 ?7.69?????6.04
Example 173 ?8.83?????7.1
Example 174 ?7.88
Example 193 ?8.6??????6.9
Example 194 ?7.5??????6.5
Example 195 ?8.04
Example 196 ?7.68
Example 209 ?6.58
Example 211 ?7.61??????6.65
Because they have the endothelin bonded ability that suppresses, described compound can be used for treating cause by the endothelin increase with vasoconstriction, cell proliferation, disease that inflammation is relevant.Example about this class disease has hypertension, coronary heart disease, heart failure, kidney and myocardial atrophy, renal failure, cerebral ischemia, dementia, migraine, subarachnoid hemorrhage, thunder Na Shi syndrome, portal hypertension, pulmonary hypertension or the like.They also can be used for the treatment of arteriosclerosis, the prevention of balloon or vasodilation shaping postoperative restenosis, gastric duodenal ulcer, cancer, hyperplasia of prostate, erective dysfunction, hearing disability, blind, chronic bronchitis, asthma, the Gram-negative septicemia, shock, sickle cell anemia disease, glomerulonephritis, renal colic, glaucoma, the treatment of diabetic complication and prevention, complication after vascular or heart operation or the organ transplantation, complication after the ciclosporin treatment, present known misery relevant and disease with endothelin.
Compound can be oral, rectal administration, drug administration by injection or the like mode, for example is prepared into the medicine of intravenous injection, intramuscular injection, subcutaneous injection, intrathoracic or percutaneous drug delivery, sublingual administration, medicament for the eyes preparation or aerosol form.The example of concrete application mode be make capsule, tablet, oral suspension or solution, suppository, injection, put drops in one's eyes, ointment or aerosol/atomizer.
First-selected application mode is intravenous injection, intramuscular injection, oral medicine or puts drops in one's eyes.Amount of drug depends on the type of sp act composition, also depends on patient's the age and the mode of demand and use.Usually the limit of consideration of consumption is that per kilogram human body body weight is used the 0.1-50 milligram every day.Contain in the preparation of medicine of compound of molecular formula I and add inert agents usually or also add vehicle with drug activity.Binding, filling vehicle, carrier substance or the thinner that can contain some amount in tablet that is prepared into or the particle usually.
Patent of the present invention is about having the class arylethene-sulfonamides compounds shown in the molecular formula I.
R 3Represent phenyl, substituted-phenyl, can by short-chain alkyl, short chain thiazolinyl, short chain alkynyl, phenyl, short chain alkoxyl group, amino, short chain amido, amido-short-chain alkyl, trifluoromethyl, halogen, short chain alkane sulfydryl, hydroxyl, hydroxyl-short-chain alkyl, cyano group, carbonyl, short chain alkyloyl, formyloxy list replace, two replace or three replacements, benzofuryl, aryl, heterocyclic aryl.
R 4Represent hydrogen atom, halogen, trifluoromethyl, short-chain alkyl, the short chain amido, the short chain alkoxyl group, short-chain alkyl-alkylsulfonyl, short-chain alkyl-sulfinyl, short chain alkane sulfydryl, short chain alkane sulfydryl-short-chain alkyl, hydroxyl-short-chain alkyl, short-chain alkyl-Sauerstoffatom-short-chain alkyl, hydroxyl-short-chain alkyl-Sauerstoffatom-short-chain alkyl, hydroxyl-short-chain alkyl-amido, short-chain alkyl-amido-short-chain alkyl, amino, two short-chain alkyls-amido, [N-(hydroxyl-short-chain alkyl)-N-(short-chain alkyl)]-amido, aryl, aryl-amido, aryl-short-chain alkyl amido, aryl-sulfydryl, aryl-short chain alkane sulfydryl, aryl-oxygen base, aryl-short-chain alkyl-oxygen base, aryl-short-chain alkyl, aryl-sulfinyl, heterocyclic aryl, heterocyclic aryl-oxygen base, heterocyclic aryl-short-chain alkyl-oxygen base, heterocyclic aryl-amido, heterocyclic aryl-short-chain alkyl-amido, heterocyclic aryl-sulfydryl, heterocyclic aryl-short-chain alkyl, heterocyclic aryl-sulfinyl, Heterocyclylalkyl, Heterocyclylalkyl-short-chain alkyl-oxygen base, Heterocyclylalkyl-oxygen base, Heterocyclylalkyl-amido, Heterocyclylalkyl short-chain alkyl-amido, Heterocyclylalkyl-sulfydryl, Heterocyclylalkyl-short-chain alkyl-sulfydryl, Heterocyclylalkyl-short-chain alkyl, Heterocyclylalkyl-sulfinyl, cycloalkyl, cycloalkyl-oxygen base, cycloalkyl-short-chain alkyl-oxygen base, cycloalkyl-amido, cycloalkyl-short-chain alkyl-amido, cycloalkyl-sulfydryl, cycloalkyl-short-chain alkyl-sulfydryl, cycloalkyl-short-chain alkyl, cycloalkyl-sulfinyl;
R 5And R 6Represent hydrogen atom, short-chain alkyl, both can be identical also can be different;
X represention oxygen atom, sulphur atom, imino-, oxygen methyl or a chemical bond;
Y represention oxygen atom, sulphur atom or imino-;
Z represention oxygen atom, sulphur atom, imino-or a chemical bond;
Q representative-(methylene radical) n-,-(methylene radical) m-C ≡ C-(CH 2) p-(wherein p represents integer 0, and Z represents a chemical bond) or-methylene radical-cyclopropenyl radical-methylene radical-;
N represents integer 2,3,4,5,6;
M represents integer 1,2 or 3;
P represents integer 0,1,2 or 3; Aforesaid mixture comprises racemize and the mixture of meso-form and the salt that allows use on pharmacopedics of the pure non-corresponding body of such mixture, the mixture of non-corresponding body, the racemoid of non-corresponding body, non-corresponding body.
In the definition of the compound shown in the general molecular formula I, if do not particularly point out, the term short chain represents to contain 1 straight or branched group to 7 carbon atoms, most probable contains 1 to 4 carbon atom, for example short-chain alkyl or short chain alkoxy base represent methylidene, ethyl, n-propyl, sec.-propyl, normal-butyl, isobutyl-, sec-butyl, the tertiary butyl, amyl group, hexyl, heptyl, methoxyl group, oxyethyl group, propoxy-, butoxy, isobutoxy, sec-butoxy, tert.-butoxy.Short chain alkylidene group-oxygen base is represented methylene radical-dioxy base, ethylidene-dioxy base, propylidene-dioxy base and butylidene-dioxy base group.The example of short chain alkyloyl group has ethanoyl, propionyl, butyryl radicals.The short chain alkenylene is represented for example vinylidene, propenylidene, crotonylidene.Short chain thiazolinyl and short chain alkynyl are represented vinyl, propenyl-butyryl radicals, 2-methyl-propenyl, ethynyl, proyl, butynyl, pentynyl, 2-methyl-pentynyl or the like group.Short chain alkene oxygen basis representation allyloxy, vinyloxy group, propenyloxy group and similar group.Statement naphthene group in the literary composition represents to contain the cyclic saturated hydrocarbon group of 3 to 7 carbon, for example cyclopropyl, cyclobutyl, cyclopentyl, cyclohexyl, suberyl, they can be replaced by short-chain alkyl, hydroxyl-short-chain alkyl, amino-short-chain alkyl, short chain alkoxyl group-short-chain alkyl or short chain thiazolinyl simultaneously.Statement Heterocyclylalkyl in the literary composition is represented saturated or undersaturated ternary, quaternary, five yuan, hexa-atomic or seven membered heterocyclic groups (non-aromatic ring), can contain one or two identical or different nitrogen-atoms in the heterocycle, Sauerstoffatom or sulphur atom, heterocycle can be by short-chain alkyl, amino, nitro, hydroxyl, groups such as short chain alkoxyl group suitably replace, this class heterocycle such as piperidines group, the morpholine group, the thiomorpholine group, croak piperazine group, the tetrahydropyrans group, the dihydropyrane group, 1,4-two oxane, pyrrolidino group, the tetrahydrofuran (THF) group, the pyrrolin group, the glyoxalidine group, the pyrazoline group, pyrazolidyl, 5-oxo-1,2,4-oxo dioxazole group, 5-oxo-1,2,4-sulfo-dioxazole group, 5-sulfo--1,2,4-oxo dioxazole group, 2-oxo-1,2,3,5-oxo sulfo-dioxazole group or the like perhaps has this class heterocycle of aforesaid substituted radical.Statement heterocyclic aryl in the literary composition represents to contain in the hexa-atomic aromatic ring group one to four nitrogen-atoms; contain one to three nitrogen-atoms in the hexa-atomic aromatic ring group of benzo; a Sauerstoffatom or a nitrogen-atoms or a sulphur atom during containing, five yuan of aromatic ring groups are arranged; contain a Sauerstoffatom or nitrogen-atoms or sulphur atom in the benzo five-membered aromatic ring group; contain a Sauerstoffatom and a nitrogen-atoms and above-mentioned benzo derivative in five yuan of aromatic ring groups; five yuan of aromatic rings contain three nitrogen-atoms and above-mentioned benzo derivative; perhaps tetrazolium cyclic group furan group for example; thienyl group; pyrrole group; the pyridine group; pyrimidine group; indolyl radical; the quinoline group; the isoquinoline 99.9 group; imidazole group; triazine group; the thiazine group; thiazolyl group; the isothiazole group; azoles group oh; different oh azoles group or the like; wherein can be on these tetrazolium cyclic groups by short-chain alkyl; the short chain thiazolinyl; amino; amino-short-chain alkyl; halogen; hydroxyl; the short chain alkoxyl group; trifluoromethoxy; trifluoromethyl; carboxyl; amide group; the thiamines base; short-chain alkyl-formyl radical; cyano group; hydroxyl-short-chain alkyl; short-chain alkyl-oxygen base-short-chain alkyl; or another one heterocyclic aryl (being preferably tetrazyl) or Heterocyclylalkyl (are preferably 5-oxo-1; 2; 4-oxo dioxazole group; 5-oxo-1; 2; the 4-thiazolyl group; 5-oxo-1; 2; 4-sulfo-dioxazole group; 5-sulfo--1; 2; 4-oxo bisoxazoline group; 2-oxo-1; 2; 3,5-oxo sulfo-dioxazole group) replace.The aryl of being explained in literary composition representative does not replace or by a replacement, two replace and trisubstituted six to ten carbon atom groups such as phenyl ring group and the naphthalene nucleus group of containing, and wherein substituting group can be an aryl, halogen, hydroxyl, short-chain alkyl, the short chain thiazolinyl, the short chain alkynyl, the short chain alkoxyl group, one five yuan or six-ring on the phenyl ring that short alkenyloxy or short chain alkene dioxy base form, hydroxyl-short-chain alkyl, hydroxyl-short chain thiazolinyl, hydroxyl-short chain thiazolinyl-short chain alkynyl, short chain alkoxyl group-short-chain alkyl, short chain alkoxyl group-short chain alkoxyl group, trifluoromethyl, trifluoromethoxy, cycloalkyl, hydroxyl-cycloalkyl, Heterocyclylalkyl, heterocyclic aryl or the like.
In the described compound of patent of the present invention, owing to exist two keys in the compound that covered of molecular formula I, therefore may there be multiple geometrical isomer, as cis trans-isomer(ide) [or (E)-and (Z)-compound].Patent of the present invention comprises each independently isomer [or (E)-and (Z)-compound], comprises that also two kinds of isomer carry out the blended mixture with any ratio.In patent of the present invention, R in the compound shown in the general molecular formula I 5And R 6Group is that trans structure is particularly preferred compound mutually.
Especially Shou Xuan compound referring to shown in the general molecular formula I compound, R wherein 3Expression phenyl or by the mono-substituted phenyl of short chain alkoxyl group (especially methoxyl group), X represention oxygen atom.
Second group of first-selected especially compound is referring to the compound shown in the general molecular formula I, wherein R 3Expression phenyl or by the mono-substituted phenyl of short chain alkoxyl group (especially methoxyl group), X, Y and Z represention oxygen atom.
The 3rd group of first-selected especially compound is referring to the compound shown in the general molecular formula I, wherein R 3Expression phenyl or by the mono-substituted phenyl of short chain alkoxyl group (especially methoxyl group), X, Y and Z represention oxygen atom, Q represents (methylene radical) n, wherein n equals 2 or 3.
The 4th group of first-selected especially compound is referring to the compound shown in the general molecular formula I, wherein R 3Expression is by a halogen atom and the dibasic phenyl of a short chain alkoxyl group (especially methoxyl group), X, and Y and Z represention oxygen atom, Q represents (methylene radical) n, wherein n equals 2 or 3.
The 5th group of first-selected especially compound is referring to the compound shown in the general molecular formula I, wherein R 3Expression by a chlorine atom and/or a short chain alkoxyl group (especially methoxyl group) list replace or dibasic phenyl, X, Y and Z represention oxygen atom, Q represents (methylene radical) n, wherein n equals 2 or 3, R 2Represent heterocyclic aryl.
Both comprised at the salt that pharmaceutically allows that mineral acid also comprised the organic acid salt in the term, these acids comprise haloid acid (as spirit of salt and Hydrogen bromide), sulfuric acid, phosphoric acid, nitric acid, citric acid, formic acid, acetate, maleic acid, tartrate, methylsulfonic acid, tosic acid and similarly acid, perhaps the compound shown in the general molecular formula I itself be acids generation mineral alkali group that resembles basic metal or alkaline-earth metal for example sodium hydroxide, potassium hydroxide, calcium hydroxide or the like.
One or more asymmetric c atoms may be contained in the described compound of general molecular formula I, and the mixture and the mesoisomer form of racemoid of racemoid, the diastereomer of pure mixture, diastereomer can be prepared to optically active enantiomer or diastereomer, enantiomer and diastereomer.Patent of the present invention comprises the compound of all these forms.Mixture can separate by mode known per se, as column chromatogram, thin-layer chromatography, high performance liquid chromatography or recrystallization or the like mode.
Because this compounds has the endothelin bonded ability that suppresses, the compound shown in the general molecular formula I and they the salt of pharmaceutically permission can be used for the treatment of cause by endothelin with vasoconstriction, hyperplasia, disease that inflammation is relevant.Example about this class disease has hypertension, coronary heart disease, heart failure, kidney and myocardial atrophy, renal failure, cerebral ischemia, dementia, migraine, subarachnoid hemorrhage, thunder Na Shi syndrome, portal hypertension, pulmonary hypertension or the like.They also can be used for the treatment of arteriosclerosis, the prevention of balloon or vasodilation shaping postoperative restenosis, gastric duodenal ulcer, cancer, hyperplasia of prostate, erective dysfunction, hearing disability, blind, chronic bronchitis, asthma, the Gram-negative septicemia, shock, sickle cell anemia disease, glomerulonephritis, renal colic, glaucoma, the treatment of diabetic complication and prevention, complication after vascular or heart operation or the organ transplantation, complication after the ciclosporin treatment, present known misery relevant and disease with endothelin.
This compounds can be prepared into form such as tablet, coated tablet, gel capsule, emulsion, solution or the suspension of intestines innerlich anwenden or oral medicine, also can be prepared into the form such as the spray of nose medication, or the mode of rectal application such as suppository.The form that this compounds can be prepared into intramuscular injection, subcutaneous injection or intravenous injection medication equally for example is prepared into the solution of injectable medication.
Mixture on these pharmacopedics can contain the compound shown in the molecular formula I, also can contain they and inorganic or (with) the organic excipients acceptable salt on the pharmacopedics that is prepared into that combines.These vehicle are that pharmaceutical industry is often used, for example the salt of lactose, Zea mays or their related derivatives, talcum powder, stearic acid or this class material.
If be prepared into the gelationus capsule then can use compound such as vegetables oil, beeswax, fat, liquid or semi-liquid polyol or the like.If be prepared into solution or syrup class medicine, then can use compound such as water, polyol, sucrose, glucose or the like.The medicament that is prepared into injection then can add the compound such as water, polyol, alcohol, glycerine, vegetables oil, Yelkin TTS, liposome or the like.Be prepared into the material that suppository then can add, lipid acid cured such as natural or winterized stearin, honeybee or fat, liquid or semi-liquid polyol or the like.
Combination drug can contain sanitas, improves the compound of stability, improvement or regulate viscosity compound, improve deliquescent compound, sweeting agent, dyestuff, improve the compound of taste, the compound of regulating osmotic pressure, damping fluid, antioxidant or the like.
Compound shown in the general molecular formula I also can be gone up useful material with one or more other treatment and be used, this class title complex such as α-or beta blocker such as phentolamine, Bridal, Target, Propranololum, timolol (having another name called timolol), metoprolol (having another name called metoprolol and metoprolol), galutedin or the like; Vasodilator such as hydralazine, minoxidil (having another name called U-10858 and loniten), diazoxide (having another name called diazoxide), Fu Luokuinan (having another name called fluorine) or the like with quinoline south and Manoplas; Calcium antagonist such as Odizem (having another name called Diltiazem and DILTIAZEM HCl), nicardipine (having another name called Vasonase), nimodipine, verapamil (having another name called Verapamilum and verapamil), nifedipine (having another name called nifedipine, nifedipine and NIFEDIPINE) or the like; ACE inhibitor such as silicon ammonia, captopril (having another name called mercaptomethyl propionyl proline and Captopril), enalapril, lisinopril or the like; Potassium activator such as Pinacidil; The antagonist of Angiotensin II, diuretic(s) such as Zestoretic (having another name called hydrochlorothiazide), chlorothiazide (having another name called gram urine thiophene), Ai Si Chlorazene, bumetanide (having another name called bumetanide and bumetanide), furosemide (having another name called furosemide and furosemide), metolazone, chlortalidone or the like; Sympathicolytic thing such as aldomet (having another name called methyldopa), clonidine (having another name called clonidine catapresan, the long peace clonidine of pressing), guanabenz (having another name called guanabenz), serpentine or the like; Medicine with other treatment hypertension and arrhythmia.
Consumption can change in the larger context, but must adapt to situation at that time.Usually, oral consumption be every day 3 milligrams between 3 grams, first-selected consumption be 10 milligrams of every days between 1 gram, Shou Xuan consumption is that one 70 kilograms per day for adults is taken the medicine between 5 milligrams to 300 milligrams especially.The medicament of every day is one to three part of use respectively of div in par aeq preferably.Need be to children according to his body weight and suitable minimizing consumption of age.
First-selected compound is to have a compounds of structure shown in the molecular formula II and the salt that they allow on pharmacopedics.
Molecular formula II
Wherein, R 1, R 2, R 3, R 4, R 5, R 6, the group among Y, Q and Z and the above-mentioned general molecular formula I has same definition.
Same first-selected compound is to have a compounds of structure shown in the molecule formula III and the salt that they allow on pharmacopedics.
The molecule formula III
Wherein, R 1, R 2, R 3, R 4, R 5, R 6, the group among Y, Q and Z and the above-mentioned general molecular formula I has same definition, T represents a chloro, bromo, hydrogen atom, methyl or methoxy group.
Same first-selected compound is to have a compounds of structure shown in the molecular formula IV and the salt that they allow on pharmacopedics.
Molecular formula IV Wherein, R 1, R 2, R 3, R 4Has same definition with the group among Q and the above-mentioned general molecular formula I.
Another kind of first-selected especially compound is to have a compounds of structure shown in the molecular formula V and the salt that they allow on pharmacopedics.
Wherein, R 1And R 2Have same definition with the group among the above-mentioned general molecular formula I, T represents a chlorine atom, bromine atoms, hydrogen atom, methyl or methoxy group.
R in the particularly preferred compound in one group of compound shown in the molecular formula 2Represent heterocyclic aryl.
Preferred compound is:
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-p-methylphenyl-pyrimidine-4]-acid amides,
2-phenyl-ethylidene sulfonic group-5-(4-bromo-phenyl)-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-pyrimidine-4]-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-phenyl-pyrimidine-4]-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-p-methylphenyl-pyrimidine-4]-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(4-bromo-phenoxy group)-oxyethyl group]-5-p-methylphenyl-pyrimidine-4]-acid amides,
2-thiophene-3-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-p-methylphenyl-pyrimidine-4]-acid amides,
2-thiophene-2-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-p-methylphenyl-pyrimidine-4]-acid amides,
2-thiophene-2-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-p-methylphenyl-[2,2 ']-two pyrimidines-4}-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-p-methylphenyl-[2,2 ']-two pyrimidine-4]-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-(2-methoxyl group-phenoxy group)-pyrimidine-4]-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-(3-methoxyl group-phenoxy group)-pyrimidine-4]-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-(2-methoxyl group-phenoxy group)-2-pyrazine-2-pyrimidine-4]-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-(2-methoxyl group-phenoxy group)-2-morpholine-4-pyrimidine-4]-acid amides,
2-phenyl-ethylidene sulfonic group-5-(2-methoxyl group-phenoxy group)-2-morpholine-4 a replacement-6-[2-(5-trifluoromethyl-pyrimidine-2-oxygen base)-oxyethyl group]-pyrimidine-4}-acid amides,
2-phenyl-ethylidene sulfonic group-5-(2-methoxyl group-phenoxy group)-6-[2-(pyrimidine-2-oxygen base)-oxyethyl group]-[2,2 ']-two pyrimidines-4}-acid amides,
2-thiophene-2-ethylidene sulfonic group-[6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-(2-methoxyl group-phenoxy group)-[2,2 ']-two pyrimidine-4]-acid amides,
2-thiophene-2-ethylidene sulfonic group-[6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-(2-methoxyl group-phenoxy group)-2-pyrimidine-4-pyrimidine-4]-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-(2-chloro-5-methoxyl group-phenoxy group)-pyrimidine-4}-acid amides,
On pharmacopedics, allow the salt that uses with above-mentioned they
Shou Xuan compound is especially:
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-(4-chloro-phenyl)-pyrimidine-4]-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-2-pyrimidine-4 replacement-5-p-methylphenyl-pyrimidine-4}-acid amides,
On pharmacopedics, allow the salt that uses with above-mentioned they.
Compound shown in the described general molecular formula of the patent of the present invention I can use the serial reaction of following general introduction to prepare.For convenience of explanation and clarify some facts, the partial synthesis step of compound shown in the general molecular formula I has only been described.The reference of listing in square brackets is placed on the last of this part.
Possible synthesis step A:
Target compound shown in the general molecular formula I can react with compound shown in compound shown in the molecular formula 1 and the molecular formula 2 or their salt and obtain.
Molecular formula 1
Wherein, G 1Be active residue, first-selection is the chlorine atom, and other symbol has identical definition with group among the above-mentioned general molecular formula I.
Figure A0181266900262
Molecular formula 2
Symbol wherein has identical definition with group among the above-mentioned general molecular formula I.
Possible synthesis step B:
Target compound shown in the general molecular formula I can react with the compound shown in the compound shown in the molecular formula 3 or their salt and the molecular formula 4 and obtain.
Molecular formula 3
Figure A0181266900271
Symbol wherein has identical definition with group among the above-mentioned general molecular formula I.
Molecular formula 4
G 2-R 2
Wherein, G 2Be active residue, first-selection is a halogen atom, and other symbol has identical definition with group among the above-mentioned general molecular formula I.
Possible synthesis step C:
Target compound shown in the general molecular formula I can react with compound shown in the compound shown in the molecular formula 5 or their salt and the molecular formula 6 or their salt and obtain.
Molecular formula 5
Wherein, G 3Be short-chain alkyl sulfonic group or Phenylsulfonic acid base or halogen atom, other symbol has identical definition with group among the above-mentioned general molecular formula I.
Molecular formula 6
R 4-H
Wherein, R 4Be with above-mentioned general molecular formula I in group have identical definition.
Above-mentioned possible synthesis step A-C is referring to document [5].
Scheme 1: precursor 1 and 3 preparation, X wherein, Y and Z represention oxygen atom:
Figure A0181266900282
The similar compound of the similar compound molecular formula 3 of molecular formula 1
A) add sodium methylate and methyl alcohol, add ammonium chloride and hexamethyl two silicon lithium nitrides then, right
The back adds hydrochloric acid/Virahol; B) salt of wormwood, acetone; C) sodium methylate, methyl alcohol; D)
Phosphorus oxychloride; E) ammonia/tetrahydrofuran (THF), potassium tert.-butoxide, methyl alcohol then; F) diformazan
Sulfoxide; G) sodium hydride, tetrahydrofuran (THF), dimethyl formamide;
Amidine compound shown in the molecular formula 8 is to obtain with following standard method [1] is synthetic, it is the methanol solution that the nitrile shown in the molecular formula 7 is added sodium alkoxide earlier, add then that ammonium chloride reaction obtains, also can allow the nitrile earlier and the reaction of hexamethyl two silicon lithium nitrides, the aqueous isopropanol that then adds hydrochloric acid reacts and obtains.The malonic ester of 2 replacements shown in the molecular formula 10 is to carry out synthetic according to the process of having delivered [2], it is at acetone soln with under with the condition of salt of wormwood as alkali, by the dimethyl chloride shown in the molecular formula 9 for obtaining of reacting of the alcohol shown in malonate and the molecular formula 11.Compound 10 is dissolved in the methyl alcohol, continues to stir 30 minutes after adding sodium alkoxide, adds amidine analog derivative 8 then, at room temperature continues to stir 8 hours, after acid is reacted gradually, can separate obtaining 4, and the 6-dihydro-pyrimidin is seen molecular formula 12, and productive rate is 70% to 90%[2].Compound 12 or its tautomeric forms, at the temperature (60-120 ℃) and the N that raise, under the existence of accelerine, by being transformed into dichloro-derivative 13 with phosphorus oxychloride reaction, productive rate is 40% to 75%[3].Under some conditions, add phosphorus pentachloride or chlorinating benzyl triethylamine and can obtain higher productive rate.Sulphonamide sylvite shown in dichloro-derivative 13 and the excessive molecular formula 15 (it be according to standard method with the sulfonic acid muriate prepared in reaction shown in the molecular formula 14), at room temperature with in the dimethylsulfoxide solvent react, can obtain the pyrimidine shown in the general molecular formula 16, through recrystallization in ethylacetate/ether or with ethyl acetate/heptane is that the productive rate of the product that obtains was 70% to 90% after solvent was crossed the silica gel chromatographic column purification.Pyrimidine derivatives 16 is intermediate products, it can be transformed into the final product shown in the molecular formula I by the method for being summarized among the possible synthesis step A, perhaps under 50 ℃ to 80 ℃ condition, in this kind solvent of tetrahydrofuran (THF), in the presence of this quasi-alkali of sodium hydride, with the dihydroxy compound reaction that with molecular formula 17 is representative, can obtain the derivative shown in the molecular formula 18, be transformed into the final product shown in the general molecular formula I by the method for being summarized among the above-mentioned possible synthesis step B then.
See relevant document [1], [2], [3], [6] about the specific descriptions of experiment condition.
When being other group rather than Sauerstoffatom for X, Y and Z, this compounds also can obtain with similar method is synthetic.
Scheme 2: the preparation of precursor 5, X wherein, Y and Z represention oxygen atom:
The similar compound of molecular formula 5
A) i) thiocarbamide, sodium methylate and methyl alcohol, at ambient temperature; Ii) methyl iodide, two
The first sulfoxide, at ambient temperature; Iii) phosphorus oxychloride, xylidine are at 100-120
℃; B) (R 1) (R 6) C=C (R 5) SO 2-NHK, methyl-sulphoxide,
At ambient temperature, c) R 2-O-Q-OH, sodium hydride, tetrahydrofuran (THF)/two
Methylformamide, under room temperature or 60-80 ℃, perhaps HO-Q-OH, hydrogenation
Sodium, tetrahydrofuran (THF)/dimethyl formamide under room temperature or 60-80 ℃, add then
G 2-R 2, sodium hydride, tetrahydrofuran (THF), under 60-80 ℃ condition; D) MCPBA,
DCM, at ambient temperature.
See relevant document [1], [2], [3], [5], [6] about the specific descriptions of experiment condition.About the substitution reaction of sulfonic acid group especially referring to document [5].
When being other group rather than Sauerstoffatom for X, Y and Z, this compounds also can obtain with similar method is synthetic.
Scheme 3: the preparation process [5] of the precursor that the compound shown in the synthetic molecules formula I (wherein, X represents a chemical bond) is required:
Figure A0181266900311
In scheme 3, the symbol that is occurred has identical definition with group among the above-mentioned general molecular formula I in scheme 1.
Scheme 4: the preparation process [11-13] of heterocyclic aryl-ethylidene sulfonic acid:
According in document [11]-[13] described synthetic method, can obtain the heterocyclic aryl shown in the molecular formula 32 to 34-ethylidene sulfonic acid analog derivative.Crucial synthesis step is the vinyl sulphonamide and the coupled reaction of bromo hetero-aromatic ring accordingly palladium catalysis under.(aryl-ethylidene sulfonic acid analog derivative preparation that also can use the same method in principle.)
Scheme 5: the preparation process [14-19] of the aryl of replacement-ethylidene sulfonic acid:
Figure A0181266900322
According in document [14]-[19] described synthetic method, can obtain the aryl-ethylidene sulfonic acid analog derivative of the replacement shown in the molecular formula 35 to 38.Other analog derivative also can use the same method by its corresponding styrene monomer preparation.)
In scheme 3, the symbol that is occurred has identical definition with group among the above-mentioned general molecular formula I in scheme 1.
[1] W.G hring, J.Schildknecht, M.Federspiel; Chimia, 1996,50,538-543.[2] W.Neidhart, V.Breu, D.Bur, K.Burri, M.Clozel, G.Hirth, M.M ü lle, H.P.Wessel, H.Ramuz; Chimia, 1996,50, the reference of being quoted in 519-524. and the literary composition.[3] W.Neidhart, V.Breu, K.Burri, M.Clozel, G.Hirth, U.Klinkhammer, T.Giller, H.Ramuz; Bioorg.Med Chem.Lett., 1997,7,2223-2228.R.A.Nugent, S.T.Schlachter, M.J.Murphy, G.J.Cleek, T.J.Poel, D.G.Whishka, D.R.Graber, Y.Yagi, B.J.Keiser, R.A.Olmsted, L.A.Kopta, S.M.Swaney, S.M.Poppe, J.Morris, W.G.Tarpley, R.C.Thomas; J.Med.Chem., 1998,41,3793-3803.[4] J.March; Advanced Organic Chemistry, 4 ThEd., 1994, p.499. with literary composition in the reference quoted.[5] EP 0 743 307 A1; EP 0 658 548 B1; EP 0 959 072 A1. (Tanabe Seiyaku) .[6] EP 0 633 259 B1; EP 0 526 708 A1; WO 96/19459. (F.Hoffmann-LaRoche) .[7] see also about the document that synthesizes five-membered ring: Y.Kohara et al; J.Med.Chem., 1996,39, the reference of being quoted in 5228-5235. and the literary composition.[8] EP 0 882 719 A1 (Yamanouchi pharmaceutical Co. Ltd .) [9] WO 00/52007 (F.Hoffmann-LaRoche AG) .[10] WO 00/42035 (F.Hoffmann-LaRoche AG) .[11]? Bull.Soc.Chim.Fr., 1981,71.[12]? J.Org.Chem., 1958,23,729.[13]? Bull.Chem.Soc.Jpn., 1991,64,1431.[14] M.V.Ramana Reddy et al.; Phosphorous, Sulfur and Silicon, 1990,53,285-290.[15] S.S.Arogba; Organic Preparations and Procedures Int, 1991,23 (5), 639-643.[16] D.Bhaskar Reddy et al.; Phosphorous, Sulfur and Silicon, 1993,84,63-71.[17] M.Kameyama et al.; Bull.Chem.Soc.Jpn., 1988,61,1231-1235.[18] B.M.Culbertson et al.; J.Chem.Soc. (C), 1968,992-822.[19] D.Bhaskar Reddy et al.; Indian J.Chem., 1995,34B, 816-822.[20] J.M.Fox, X Huang, A.Chieffi, S.L.Buchwald; J.Am.Chem.Soc., 2000,122,1360-1370.
Reference example (synthesizing of precursor)
Following compound is to scheme 3 described method synthetic according to previous scheme 1.All compounds are identified with following instrument: 1H nuclear magnetic resonance spectrum (300 megahertz) and 13C nuclear magnetic resonance spectrum (75 megahertz) (Varian Oxford, 300 megahertzes sometimes; The given chemical shift of using of solvent is unit with ppm (1,000,000/) relatively; The definition of multiplet: s=is unimodal, and d=is bimodal, t=triplet, m=multiplet), liquid chromatography-mass spectrography (Waters Micromass; The ZMD platform that has electron spray(ES) probe and Alliance 2790 HT; Pillar: 2 * 30 millimeters, Gromsil ODS4,3 microns, 120A; Gradient: aqueous phase 0-100% acetonitrile, 6 minutes, contain 0.05% formic acid, flow: 0.45 ml/min; t RUnit be minute), thin-layer chromatography (chromatographic sheet: Merck, silica gel 60F 254) and identify with fusing point once in a while.
Following reference example does not limit the scope of above-mentioned patent of invention just to the explanation patent of invention.The unit of the temperature that all are mentioned is ℃.
Reference example 1:
Figure A0181266900341
A) to 1, the sodium metal (298 milligrams) that adds fritter in the mixture of 2-glycol dimethyl ether (15 milliliters) and ethylene glycol (40 milliliters), mixture stirs and dissolves fully until the sodium metal, add dimethyl formamide (15 milliliters) then, 2-phenyl-ethylidene sulfonic group-(6-chloro-5-p-methylphenyl-pyrimidine-4) acid amides (1.0 gram), 100 ℃ of following stirring reactions 4 days, the water that adds 150 milliliters after the solvent evaporates, add acetate (1.0 milliliters) then, wash with water behind the sedimentation and filtration and drying, crude product is that the mixed solvent purification obtains 2-phenyl-ethylidene sulfonic group-[6-(2-hydroxyl-oxyethyl group)-5-p-methylphenyl-pyrimidine-4]-acid amides (500 milligrams) with silica gel chromatography with ethyl acetate/methanol/ammoniacal liquor (25%)=4/1/0.5.t R=4.54 (liquid chromatographies); M +=412.38 (ES +).
B) to 4,6-two chloro-5-p-methylphenyl-pyrimidines (2.0 gram) are dissolved in the solution of methyl-sulphoxide (35 milliliters) and add di-isopropyl ethanamide (1.46 milliliters), add 2-phenyl-ethylidene sulfonic acid potassium salt (2.78 gram) then, mixture at room temperature stirs and pours into after 48 hours that (500 milliliters) add ether (250 milliliters) then in the water, solution stirring 30 minutes, water is with acetate (2.0 milliliters) acidifying and be cooled to 0 ℃ and kept 1 hour after the phase-splitting, and washing of water and ether and drying can obtain 2-phenyl-ethylidene sulfonic group-(6-chloro-5-p-methylphenyl-pyrimidine-4)-acid amides (2.02 gram) behind the sedimentation and filtration.t R=5.32 (liquid chromatographies); M +=386.23 (ES+); M -=384.22 (ES -).
Figure A0181266900351
C) (10 restrain to 2-phenyl-ethylidene SULPHURYL CHLORIDE under 0 ℃, the commodity of Aldrich) slowly add ammoniacal liquor (25%) in tetrahydrofuran (THF) (115 milliliters) solution, at room temperature stirred then 30 minutes, dissolving volatilization back residuum is dissolved in the ethyl acetate and with 3 times water washing, the organic phase dried over sodium sulfate, filter the back volatilization except that desolvating, residuum is dissolved in the methyl alcohol (55 milliliters), and substep adds potassium tert.-butoxide (4.88 gram), continue to stir and volatilize after 30 minutes except that after desolvating, the residuum drying then can obtain 2-phenyl-ethylidene sulfonic acid potassium salt (9.65 gram).1H nuclear magnetic resonance spectrum (deuterated dimethyl sulfoxide): 7.7 (m, 2H), 7.4 (m, 3H), 7.3 (d, 1H), 7.2 (d, 1H), 7.05 (s, 2H, NH 2).
Figure A0181266900352
D) 5-p-methylphenyl-pyrimidine-4,6-glycol (17.2 gram) is dissolved in the phosphorus oxychloride (250 milliliters) and adds N, accelerine (25 milliliters), mixture stirs 16 hours final vacuums down at 70 ℃ and concentrates, residuum pours in the frozen water and with 3 times extracted with diethyl ether, the organic phase of collecting is washed with the hydrochloric acid and the saturated nacl aqueous solution of 1 mol respectively, use dried over mgso, the solvent in the filtrate is removed in volatilization after filtering, the filemot crude product that obtains recrystallization from Virahol can obtain 4,6-two chloro-5-p-methylphenyl-pyrimidines (13.5 gram).1H nuclear magnetic resonance spectrum (deuterium is for trichloromethane): 8.78 (s, 1H), 7.35 (d, 2H), 7.20 (d, 2H), 2.41 (s, 3H).
Figure A0181266900361
E) under 0 ℃, sodium methylate (17 gram) is dissolved in the methyl alcohol (600 milliliters), in 30 minutes, in resulting solution, add (24.5 milliliters of 2-p-methylphenyl-propanedioic acid-diethyl ester, the commodity of Aldrich) be dissolved into solution in 150 milliliters the methyl alcohol, mixture continues to stir 1 hour and slowly be warmed up to room temperature, add hydrochloric acid carbonamidine (9.9 grams, the commodity of Fluka) also continue to stir 16 hours, the sodium hydroxide solution that slowly adds 10 mol after the solvent evaporates in residuum behind the hydrochloric acid soln of adding 2 mol is again regulated about pH value to 5, water and ether washing respectively behind the sedimentation and filtration, obtain 5-p-methylphenyl-pyrimidine-4 after the drying, 6-glycol (17.7 gram).1H nuclear magnetic resonance spectrum (deuterated dimethyl sulfoxide): 8.0 (s, 1H), 7.4 (d, 2H), 7.1 (d, 2H), 2.25 (s, 3H).
Reference example 2:
Figure A0181266900362
According to reference example 1a) described synthesis step, can obtain 2-phenyl-ethylidene sulfonic group-[6-(3-hydroxyl-propoxy-)-5-p-methylphenyl-pyrimidine-4]-acid amides.t R=4.58 (liquid chromatographies); [M-H] +=424.10 (ES -).
Reference example 3:
According to reference example 1a) described synthesis step, can obtain 2-phenyl-ethylidene sulfonic group-[6-(4-hydroxyl-butoxy)-5-p-methylphenyl-pyrimidine-4]-acid amides.t R=4.66 (liquid chromatographies); [M+H] +=437.99 (ES +).
Reference example 4:
Figure A0181266900372
A) according to reference example 1a) described synthesis step, can obtain 2-thiophene-2-ethylidene sulfonic group-[6-(2-hydroxyl-oxyethyl group)-5-p-methylphenyl-pyrimidine-4]-acid amides.t R=4.36 (liquid chromatographies); [M+H] +=418.15 (ES +).
Figure A0181266900373
B) according to reference example 1b) described synthesis step, 2-thiophene-2-ethylidene sulfonic group-(6-chloro-5-p-methylphenyl-pyrimidine-4)-acid amides can be by 4, and 6-two chloro-5-p-methylphenyl-pyrimidines and thiophene-2-ethylidene sulfonic acid potassium salt reaction obtains.t R=5.05 (liquid chromatographies); [M+H] +=392.11 (ES +).2-thiophene-2-ethylidene sulfonic acid amides is according to reference [11], [12], [13] described process synthetic.
Reference example 5:
A) according to reference example 1a) described synthesis step, can obtain 2-thiophene-2-ethylidene sulfonic group-[6-(2-hydroxyl-oxyethyl group)-5-p-methylphenyl-[2,2 ']-two pyrimidine-4]-acid amides.t R=4.39 (liquid chromatographies); [M+H] +=496.16 (ES +).
Figure A0181266900383
B) according to reference example 1b) described synthesis step, 2-thiophene-2-ethylidene sulfonic group-(6-chloro-5-p-methylphenyl-[2,2 '] pyrimidine-4-two)-and acid amides can be by 4, and 6-two chloro-5-p-methylphenyl-[2,2 ']-two pyrimidines and thiophene-2-ethylidene sulfonic acid potassium salt reaction obtains.t R=4.84 (liquid chromatographies); [M+H] +=470.00 (ES +).
Figure A0181266900391
C) according to reference example 1c) described synthesis step, can obtain 4,6-two chloro-5-p-methylphenyls-[2,2 ']-two pyrimidine.t R=4.42 (liquid chromatographies); [M+H] +=317.08.
Figure A0181266900392
D) according to reference example 1d) described synthesis step, can obtain 5-p-methylphenyl-[2,2 ']-two pyrimidine-4, the 6-glycol.t R=3.38 (liquid chromatographies); [M+H] +=281.08.
Reference example 6:
According to the described serial synthesis step of reference example 1a-e, the first step in building-up reactions, use Isonicotinoylhydrazine amidine hydrochloride to replace amitraz hydrochloride, can obtain 2-phenyl-ethylidene sulfonic group-[6-(2-hydroxyl-oxyethyl group)-2-pyrimidine-4 replacement-5-p-methylphenyl-pyrimidine-4]-acid amides.t R=4.36 (liquid chromatographies); [M+H] +=489.39.
Reference example 7:
According to the described serial synthesis step of reference example 1a-e, the first step in building-up reactions, use the cyclopropyl amitraz hydrochloride to replace amitraz hydrochloride, can obtain 2-phenyl-ethylidene sulfonic group-[2-cyclopropyl-6-(2-hydroxyl-oxyethyl group)-5-p-methylphenyl-pyrimidine-4]-acid amides.t R=5.12 (liquid chromatographies); [M-H] +=450.12 (ES -).
Reference example 8:
Figure A0181266900402
According to the described serial synthesis step of reference example 1a-e, the first step in building-up reactions, use the morpholine amitraz hydrochloride to replace amitraz hydrochloride, can obtain 2-phenyl-ethylidene sulfonic group-[6-(2-hydroxyl-oxyethyl group)-2-morpholine-4 replacement-5-p-methylphenyl-pyrimidine-4]-acid amides.t R=4.91 (liquid chromatographies); [M+H] +=497.46 (ES +).
Reference example 9:
According to the described serial synthesis step of reference example 1a-e, the first step in building-up reactions, use the pyrazine amitraz hydrochloride to replace amitraz hydrochloride, can obtain 2-phenyl-ethylidene sulfonic group-[6-(2-hydroxyl-oxyethyl group)-2-pyrazine-4 replacement-5-p-methylphenyl-pyrimidine-4]-acid amides.t R=4.59 (liquid chromatographies); [M+H] +=490.31 (ES +).
Reference example 10:
According to the described serial synthesis step of reference example 1a-e, the first step in building-up reactions, use pyrimidine-2 a replacement-amitraz hydrochloride to replace amitraz hydrochloride, can obtain 2-phenyl-ethylidene sulfonic group-[6-(2-hydroxyl-oxyethyl group)-5-p-methylphenyl-[2,2 ']-two pyrimidine-4]-acid amides.t R=4.51 (liquid chromatographies); [M+H] +=490.34 (ES +).
Reference example 11:
A) in 100 milliliters of ethanolic solns of 7.65 gram potassium tert.-butoxides, add 6.20 gram 2-phenyl-ethylidene sulfonic group-[6-chloro-5-(4-chloro-phenyl)-pyrimidine-4]-acid amides, the solution of gained is heated to 110 ℃ and stirred 17 hours, ethylene glycol is removed the cold water that adds 250 milliliters in the residuum of back with the high vacuum volatilization, add 10 gram citric acid monohydrate compounds in the suspension and carry out acidifying and stirred 15 minutes down at 0 ℃, wash with water after precipitation is collected and drying after obtain the white powder of 6.71 gram 2-phenyl-ethylidene sulfonic group-[5-(4-chloro-phenyl)-6-(2-hydroxyl-oxyethyl group)-pyrimidine-4]-acid amides.LC-MS:t R=4.55 minutes; [M+H] +=432.00 (ES +); [M-H] -=429.98 (ES -).
B) contain 6.50 grams 4,50 milliliters of methyl-sulphoxides and 4.4 milliliters of di-isopropyl-ethylamine solutions of 6-two chloro-5-(4-chloro-phenyl-)-pyrimidine and 9.43 gram 2-phenyl-ethylidene sulphur sylvite (reference example 1c) at room temperature stirred 65 hours, after the ether dilution of mixture with 500 milliliters water and 250 milliliters, violent stirring 15 minutes, adding 8.5 gram citric acid monohydrate compounds in the suspension carries out acidifying and continues stirring 30 minutes down at 5 ℃, precipitation washes with water after collecting, crude product under 2-3 ℃ from the 2-propyl alcohol recrystallization, the crystal of collection obtains the white powder of 6.23 gram 2-phenyl-ethylidene sulfonic group-[6-chloro-5-(4-chloro-phenyl)-pyrimidine-4]-acid amides after with washing of cold 2-propyl alcohol and drying.t R=5.24 minutes; [M+H] +=405.89 (ES +); [M-H] -=403.92 (ES -).
C) to 16.44 gram 5-(4-chloro-phenyl-)-pyrimidines-4, add 16.5 milliliters of N carefully in 165 milliliters of phosphorus oxychloride suspension of 6-glycol, accelerine, mixture refluxed 1.5 hours, the blackish green solution that obtains removes with volatilization method and desolvates, residuum pours in the frozen water, and suspension is diluted to 1000 milliliters with the hydrochloric acid and the water of 200 milliliter of 2 mol, and stirs 1 hour down at 2 ℃.The filtration collecting precipitation washes with water also and obtains 18.66 grams 4 after the drying, and 6-two chloro-5-(4-chloro-phenyl-)-pyrimidine is a shallow green powder.
Figure A0181266900432
D) under 0 ℃, 200 milliliters the methanol solution to 14.60 that drips 18.90 gram 2-(4-chloro-phenyl)-diethyl malonates restrains in the 150 ml methanol solution of sodium methylate, mixture adds 7.66 gram amitraz hydrochlorides after stirring 1 hour under 0 ℃, suspension at room temperature stirred 20 hours.The residuum that obtains after solvent is removed forms suspension in the hydrochloric acid of 200 milliliter of 2 mol, regulate the pH value of suspension to 4-5 by the sodium hydroxide that adds 20 milliliter of 10 mol, continue to stir after 30 minutes, the white precipitate that collection obtains, obtain 5-(4-chloro-phenyl-)-pyrimidine-4 after water and ether washing and the drying, the 6-glycol is a white powder.t R=2.75 minutes; [M+H] +=222.96 (ES -); [M-H] -=220.92 (ES -).
E) under 35 ℃, 170 milliliters tetrahydrofuran solution of 52 gram 4-chloro-phenyl-acetic acid ethyl esters is joined in for some time in 550 milliliters of exsiccant tetrahydrofuran solutions of 15.60 gram sodium hydrides carefully, mixture not 40 minutes relief temperature of the following stirring of heating condition drops to 29 ℃, the temperature of keeping mixture is between 25-28 ℃, stop dropwise to add 94.8 milliliters of dimethyl carbonates after the solvent evaporates, after gaseous volatilization stops, mixture also at room temperature continues to stir 72 hours with 200 milliliters tetrahydrofuran (THF) dilution, remove between the tetrahydrofuran (THF) in volatilization, add hydrochloric acid soln carefully and come acidifying mixture, residuum is dissolved in 1200 the ether, once remove with dried over mgso and volatilization and desolvate in the back with the hydrochloric acid soln of 1 mol washing 3 times and with the salt water washing, can obtain 42 with ether washing and drying after the residue collection and restrain that 2-(4-chloro-phenyl)-diethyl malonate is a white crystal.
Reference example 12:
Figure A0181266900441
According to the described serial synthesis step of reference example 11a-e, use 4-bromophenyl-ethyl acetate as starting raw material, can obtain 2-phenyl-ethylidene sulfonic group-[5-(4-bromo-phenyl)-6-(2-hydroxyl-oxyethyl group)-pyrimidine-4]-acid amides.t R=4.57 minutes; [M+H] +=478.05 (ES +).
Reference example 13:
According to the described serial synthesis step of reference example 11a-e, use 4-p-methoxy-phenyl-ethyl acetate as starting raw material, can obtain 2-phenyl-ethylidene sulfonic group-[5-(4-methoxyl group-phenyl)-6-(2-hydroxyl-oxyethyl group)-pyrimidine-4]-acid amides.t R=4.29 minutes; [M+H] +=428.20 (ES +).
Reference example 14:
Figure A0181266900451
According to the described serial synthesis step of reference example 11a-d, use diethyl-phenyl-malonate as starting raw material, can obtain 2-phenyl-ethylidene sulfonic group-[5-phenyl-6-(2-hydroxyl-oxyethyl group)-pyrimidine-4]-acid amides.LC-MS:t R=4.32 minutes; [M+H] +=398.17 (ES +).
Reference example 15:
According to the described serial synthesis step of reference example 11a-d, use 4-ethyl-phenyl-dimethyl malonate (can prepare) as starting raw material, can obtain 2-phenyl-ethylidene sulfonic group-[5-(4-ethyl-phenyl)-6-(2-hydroxyl-oxyethyl group)-pyrimidine-4]-acid amides with the described method of reference [20].t R=4.68 minutes; [M+H] +=426.07 (ES +).
Reference example 16:
According to the reference of publishing [1; 2; 3; 6; 9; 10] and reference example 1 to 15 described serial synthesis step, can obtain following table 3 described precursor compounds.
Table 3:
Table 3:(is continuous)
Figure A0181266900471
Embodiment:
Following reference example does not limit the scope of above-mentioned patent of invention just to the explanation patent of invention.The unit of the temperature that all are mentioned is ℃.Reaction uses thin-layer chromatography and liquid chromatography-mass spectrography to identify.Reaction times was not waited from 1 hour to several days, and the reflux temperature of temperature of reaction from 20 ℃ to tetrahydrofuran (THF) do not wait.
Embodiment 1
Figure A0181266900481
To (220 milligrams of sodium hydrides, in the mineral oil of 55-65%) adding tetrahydrofuran (THF) (35 milliliters), add 2-phenyl-ethylidene sulfonic group-[6-(2-hydroxyl-oxyethyl group)-5-p-methylphenyl-pyrimidine-4]-acid amides (250 milligrams) then, compound at room temperature stirred 1 hour, add 5-bromo-2-chloro-pyrimidine (188 milligrams) then and continue stirring 21 hours at 80 ℃, in residuum, add ether (20 milliliters) after the solvent evaporates, wash with ether behind the sedimentation and filtration, and be dissolved in the water and carry out acidifying with citric acid, crude product is that solvent is purified by silica gel chromatography with hexane/ethyl acetate=1/1 behind the sedimentation and filtration, can obtain 2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-p-methylphenyl-pyrimidine-4}-acid amides (91 milligrams).t R=5.39 minutes; [M+H] +=570.34 (ES +); [M-H] -=568.45 (ES -).
Embodiment 2
To (26 milligrams of sodium hydrides, in the mineral oil of 55-65%) adding tetrahydrofuran (THF) (10 milliliters), add 2-phenyl-ethylidene sulfonic group-[6-(2-hydroxyl-oxyethyl group)-5-p-methylphenyl-pyrimidine-4]-acid amides (100 milligrams) then, compound at room temperature stirred 1 hour, add 2-chloro-pyrimidine (46 milligrams) then and continue stirring 19 hours at 80 ℃, in residuum, add ether (20 milliliters) after the solvent evaporates, wash with ether behind the sedimentation and filtration, and be dissolved in the water and carry out acidifying with citric acid, crude product is that solvent is purified by silica gel chromatography with hexane/ethyl acetate=1/1 behind the sedimentation and filtration, can obtain 2-phenyl-ethylidene sulfonic group-6-[2-(pyrimidine-2-oxygen base)-oxyethyl group]-5-p-methylphenyl-pyrimidine-4}-acid amides (23.7 milligrams).t R=4.85 minutes; [M+H] +=490.27 (ES +).
Embodiment 3
Figure A0181266900491
Ethylene glycol-list-(4-bromo-phenyl)-ether (112 milligrams) is dissolved in 1, in the 2-glycol dimethyl ether (5 milliliters), add potassium tert.-butoxide (50 milligrams) and continue and stirred 1 hour, add 2-phenyl-ethylidene sulfonic group-[6-chloro-5-p-methylphenyl-pyrimidine-4]-acid amides (100 milligrams) then, and continue to stir 24 hours at 80 ℃, add entry (20 milliliters) after the solvent evaporates drying of reaction mixture and carry out acidifying also with ethyl acetate (2 times of amounts with 10% citric acid, 20 milliliters) extraction, resulting organic phase with dried over sodium sulfate and dissolving volatilization after, crude product from the 2-propyl alcohol, can obtain behind the recrystallization 2-phenyl-ethylidene sulfonic group-6-[2-(4-bromo-phenoxy group)-oxyethyl group]-5-p-methylphenyl-pyrimidine-4}-acid amides (90 milligrams) is a white powder.t R=6.12 minutes; [M-H] +=565.75 (ES -).
Embodiment 4
To (65 milligrams of sodium hydrides, in the mineral oil of 55-65%) adding tetrahydrofuran (THF) (35 milliliters), add 2-phenyl-ethylidene sulfonic group-[6-(2-hydroxyl-oxyethyl group)-5-p-methylphenyl-pyrimidine-4]-acid amides (200 milligrams) then, compound at room temperature stirred 1 hour, add 2-chloro-pyrazine (114 milligrams) then and continue stirring 18 hours at 80 ℃, in residuum, add ether (20 milliliters) after the solvent evaporates, wash with ether behind the sedimentation and filtration, and be dissolved in the water and carry out acidifying and extract with ethyl acetate with citric acid, after resulting organic phase concentrates with dried over mgso and vacuum volatilization, crude product by silica gel chromatography with hexane/ethyl acetate=1/1 be solvent purify can obtain 2-phenyl-ethylidene sulfonic group-6-[2-(pyrazine-2-oxygen base)-oxyethyl group]-5-p-methylphenyl-pyrimidine-4}-acid amides (86.5 milligrams).t R=5.13 minutes; [M+H] +=490.21 (ES +).
Embodiment 5
2-phenyl-ethylidene sulfonic group-[6-(2-hydroxyl-oxyethyl group)-5-p-methylphenyl-pyrimidine-4]-acid amides is dissolved in the tetrahydrofuran (THF) (10 milliliters), add (45 milligrams of sodium hydrides, in the mineral oil of 55-65%), compound at room temperature continues to stir 15 minutes, add dimethyl formamide (2 milliliters) and 2-chloro-5-trifluoromethyl-pyrimidine (146 milligrams) then, and being heated to 75 ℃ continues to stir 5 hours, add entry (15 milliliters) and citric acid after the solvent evaporates drying of reaction mixture, after washing after drying with water behind the sedimentation and filtration, can obtain 2-phenyl-ethylidene sulfonic group-5-p-methylphenyl-6-[2-(5-trifluoromethyl-pyrimidine-2-oxygen base)-oxyethyl group]-pyrimidine-4}-acid amides (130 milligrams) is a white powder.t R=5.92(LC);[M+H] +=557.38(ES +)。
Embodiment 6-241
Corresponding initial action raw material reacts according to the reaction process shown in the embodiment 1-5, can obtain showing the mixed compound shown in the 4-45.
Table 4:
Table 5:
Table 6:
Figure A0181266900531
Table 7:
Figure A0181266900541
Table 8:
Table 9:
Figure A0181266900561
Table 10:
Figure A0181266900571
Table 11:
Figure A0181266900581
Table 12:
Figure A0181266900591
Table 13:
Figure A0181266900601
Table 14:
Figure A0181266900611
Table 15:
Figure A0181266900621
Table 16:
Figure A0181266900631
Table 17:
Figure A0181266900641
Table 18:
Figure A0181266900651
Table 19:
Figure A0181266900661
Table 20:
Figure A0181266900671
Table 21:
Figure A0181266900681
Table 22:
Figure A0181266900691
Table 23:
Table 24:
Table 25:
Figure A0181266900721
Table 26:
Table 27:
Table 28:
Table 29:
Figure A0181266900761
Table 30:
Table 31:
Figure A0181266900781
Table 32:
Table 33:
Figure A0181266900801
Table 34:
Table 35:
Figure A0181266900821
Table 36:
Figure A0181266900831
Table 37:
Table 38:
Table 39:
Table 40:
Figure A0181266900871
Table 41:
Figure A0181266900881
Table 42:
Figure A0181266900891
Table 43:
Figure A0181266900901
Table 44:
Figure A0181266900911
Table 45:
Embodiment 242
Method according to described in the above embodiments and scheme 1 to 3 and the document quoted can obtain the compound shown in the table 46. Or Table 46:R 1: R 2: R 4:
Figure A0181266900933
The link position of each atom of expression substituting group and main body group.
Embodiment 243
Method according to described in the above embodiments and scheme 1 to 3 and the document quoted can obtain the compound shown in the table 47.
Figure A0181266900941
Or Table 47:R 1: R 2: R 4: The link position of each atom of expression substituting group and main body group.Abbreviation language tabulation: min minute rt room temperature of CyHex hexanaphthene DCM methylene dichloride DMF dimethyl formamide DMSO methyl-sulphoxide EA ethyl acetate Hex hexane HV high vacuum condition MCPBA m-chlorobenzoic acid THF tetrahydrofuran (THF) t RRetention time

Claims (22)

1. the compounds shown in the general molecular formula I,
General molecular formula I
In molecular formula,
R 1And R 2Represent aryl; Heterocyclic aryl;
R 3Represent phenyl; Substituted-phenyl, can by short-chain alkyl, short chain thiazolinyl, short chain alkynyl, phenyl, short chain alkoxyl group, amino, short chain amido, amido-short-chain alkyl, trifluoromethyl, trifluoromethoxy, halogen, short chain alkane sulfydryl, hydroxyl, hydroxyl-short-chain alkyl, cyano group, carbonyl, short chain alkyloyl, formyloxy list replace, two replace or trisubstituted; Benzofuryl; Aryl; Heterocyclic aryl;
R 4Represent hydrogen atom, halogen, trifluoromethyl, short-chain alkyl, the short chain amido, the short chain alkoxyl group, short-chain alkyl-alkylsulfonyl, short-chain alkyl-sulfinyl, short chain alkane sulfydryl, short chain alkane sulfydryl-short-chain alkyl, hydroxyl-short-chain alkyl, short-chain alkyl-Sauerstoffatom-short-chain alkyl, hydroxyl-short-chain alkyl-Sauerstoffatom-short-chain alkyl, hydroxyl-short-chain alkyl-amido, short-chain alkyl-amido-short-chain alkyl, amino, two short-chain alkyls-amido, [N-(hydroxyl-short-chain alkyl)-N-(short-chain alkyl)]-amido, aryl, aryl-amido, aryl-short-chain alkyl amido, aryl-sulfydryl, aryl-short chain alkane sulfydryl, aryl-oxygen base, aryl-short-chain alkyl-oxygen base, aryl-short-chain alkyl, aryl-sulfinyl, heterocyclic aryl, heterocyclic aryl-oxygen base, heterocyclic aryl-short-chain alkyl-oxygen base, heterocyclic aryl-amido, heterocyclic aryl-short-chain alkyl-amido, heterocyclic aryl-sulfydryl, heterocyclic aryl-short-chain alkyl-sulfydryl, heterocyclic aryl-sulfinyl, Heterocyclylalkyl, Heterocyclylalkyl-short-chain alkyl-oxygen base, Heterocyclylalkyl-oxygen base, Heterocyclylalkyl-amido, Heterocyclylalkyl-short-chain alkyl-amido, Heterocyclylalkyl-sulfydryl, Heterocyclylalkyl-short-chain alkyl-sulfydryl, Heterocyclylalkyl-short-chain alkyl, Heterocyclylalkyl-sulfinyl, cycloalkyl, cycloalkyl-oxygen base, cycloalkyl-short-chain alkyl-oxygen base, cycloalkyl-amido, cycloalkyl-short-chain alkyl-amido, cycloalkyl-sulfydryl, cycloalkyl-short-chain alkyl-sulfydryl, cycloalkyl-short-chain alkyl, cycloalkyl-sulfinyl;
R 5And R 6Represent hydrogen atom or short-chain alkyl, R 5And R 6Can be the same or different;
X represention oxygen atom, sulphur atom, imino-, methylene radical or a chemical bond;
Y represention oxygen atom, sulphur atom or imino-;
Z represention oxygen atom, sulphur atom, imino-or a chemical bond;
Q representative-(CH 2) n-,-(CH 2) m-C ≡ C-(CH 2) p-(wherein p represents integer 0, and Z represents a chemical bond;-methylene radical-Ya cyclopropenyl radical-methylene radical-;
N represents integer 2,3,4,5,6;
M represents integer 1,2 or 3;
P represents integer 0,1,2 or 3;
Aforesaid mixture comprises racemize and the mixture of meso-form and the salt that allows the above-mentioned compound of use on pharmacopedics of the pure non-corresponding body of such mixture, the mixture of non-corresponding body, the racemoid of non-corresponding body, non-corresponding body.
2. the compound shown in the general molecular formula I that has described in claims 1 allows the salt of use with them on pharmacopedics, wherein, and R 1, R 2, R 4, R 5, R 6, the group among the general molecular formula I described in Y, Q and Z and claims 1 has same definition, X represention oxygen atom, R 3Represent phenyl or by halogen, short-chain alkyl, short chain thiazolinyl, short chain alkoxyl group, amido, short-chain alkyl-amido, short-chain alkyl-sulfydryl, hydroxyl, methylol or the mono-substituted phenyl of short chain alkyloyl.
3. the compound shown in the general molecular formula I that has described in claims 1 allows the salt of use with them on pharmacopedics, wherein, and R 1, R 2, R 4, R 5, R 6With Q and claims 1 described in general molecular formula I in group have same definition, X, Y and Z represention oxygen atom, R 3Representative is by halogen and the dibasic phenyl of short chain alkoxyl group.
4. the compound shown in the general molecular formula I that has described in claims 1 allows the salt of use with them on pharmacopedics, wherein, and R 1, R 2, R 4, R 5, R 6With Q and claims 1 described in general molecular formula I in group have same definition, X, Y and Z represention oxygen atom, R 3Representative is by halogen, short-chain alkyl or the mono-substituted phenyl of short chain alkoxyl group.
5. the compound shown in the general molecular formula I that has described in claims 1 allows the salt of use with them on pharmacopedics, wherein, and R 1, R 2, R 4, R 5And R 6Has same definition with the group among the general molecular formula I described in claims 1, X, Y and Z represention oxygen atom, Q representative-(methylene radical) } n-(wherein n equals 2), R 3Represent phenyl or by halogen, short-chain alkyl or short chain alkoxyl group list replace or dibasic phenyl.
6. the compound shown in the general molecular formula I that has described in claims 1 allows the salt of use with them on pharmacopedics, wherein, and R 1, R 4, R 5And R 6Has same definition, X, Y and Z represention oxygen atom, Q representative-(methylene radical) n-(wherein n equals 2), R with the group among the general molecular formula I described in claims 1 2Represent heterocyclic aryl, R 3Represent phenyl or by halogen, short-chain alkyl or short chain alkoxyl group list replace or dibasic phenyl.
7. the compounds shown in the general molecular formula II allows the salt of use with them on pharmacopedics,
General molecular formula II
Wherein, R 1, R 2, R 3, R 4, R 5, R 6, the group among the general molecular formula I described in Y, Q and Z and claims 1 has same definition.
8. the compounds shown in the general molecular formula III allows the salt of use with them on pharmacopedics,
The general molecular formula III
Wherein, R 1, R 2, R 4, R 5, R 6, the group among the general molecular formula I described in Y, Q and Z and claims 1 has same definition, T represents chlorine atom, bromine atoms, hydrogen atom, methyl or methoxy.
9. the compounds shown in the general molecular formula IV allows the salt of use with them on pharmacopedics,
General molecular formula IV
Figure A0181266900052
Wherein, R 1, R 2, R 3, R 4With Q and claims 1 described in general molecular formula I in group have same definition.
10. the compounds shown in the general molecular formula V allows the salt of use with them on pharmacopedics,
General molecular formula V
Figure A0181266900061
Wherein, R 1And R 2Have same definition with the group among the general molecular formula I described in claims 1, T represents chlorine atom, bromine atoms, hydrogen atom, methyl or methoxy.
11. the compound described in claim 10 and they allow the salt of use on pharmacopedics, wherein, and the R among the general molecular formula V 2Represent heterocyclic aryl.
12. the compound according to arbitrary requirement of claim 1 to 11 has:
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-p-methylphenyl-pyrimidine-4}-acid amides,
2-phenyl-ethylidene sulfonic group-5-(4-bromo-phenyl)-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-pyrimidine-4}-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-phenyl-pyrimidine-4}-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-chloro-pyrimidine-2-oxygen base)-oxyethyl group]-5-p-methylphenyl-pyrimidine-4}-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(4-bromo-phenoxy group)-oxyethyl group]-5-p-methylphenyl-pyrimidine-4}-acid amides,
2-thiophene-3-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-p-methylphenyl-pyrimidine-4}-acid amides,
2-thiophene-3-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-p-methylphenyl-pyrimidine-4}-acid amides,
2-thiophene-2-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-p-methylphenyl-pyrimidine-4}-acid amides,
2-thiophene-2-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-p-methylphenyl-[2,2 ']-two pyrimidines-4}-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-p-methylphenyl-[2,2 '] two pyrimidines-4}-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-(2-methoxyl group-phenoxy group)-pyrimidine-4}-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-(3-methoxyl group-phenoxy group)-pyrimidine-4}-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-(2-methoxyl group-phenoxy group)-2-pyrazine-2-pyrimidine-4}-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-(2-methoxyl group-phenoxy group)-2-morpholine-4-pyrimidine-4}-acid amides,
2-phenyl-ethylidene sulfonic group-5-(2-methoxyl group-phenoxy group)-2-morpholine-4 a replacement-6-[2-(5-trifluoromethyl-pyrimidine-2-oxygen base)-oxyethyl group]-pyrimidine-4}-acid amides,
2-phenyl-ethylidene sulfonic group-5-(2-methoxyl group-phenoxy group)-6-[2-(pyrimidine-2-oxygen base)-oxyethyl group]-[2,2 ']-two pyrimidines-4}-acid amides,
2-thiophene-2-ethylidene sulfonic group-[6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-(2-methoxyl group-phenoxy group)-[2,2 ']-two pyrimidine-4]-acid amides,
2-thiophene-2-ethylidene sulfonic group-[6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-(2-methoxyl group-phenoxy group)-2-pyrimidine-4-pyrimidine-4]-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-(2-chloro-5-methoxyl group-phenoxy group)-pyrimidine-4}-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-5-(4-chloro-phenyl)-pyrimidine-4}-acid amides,
2-phenyl-ethylidene sulfonic group-6-[2-(5-bromo-pyrimidine-2-oxygen base)-oxyethyl group]-2-pyrimidine-4 replacement-5 p-methylphenyls-pyrimidine-4}-acid amides,
Salt with the above-claimed cpd that on pharmacopedics, allows to use
13. any compound described in embodiment 1-243 as final product.
14. contain claims 1 to 13 described any compound and general pharmaceutical carrier and auxiliary, the combination drug that is used for the treatment of the disease relevant with endothelin effect disorder, in particular for treatment and the recycle system disorderly relevant diseases, such as hypertension, local asphyxia, vasospasm and stenocardia, and the combination drug that is used for the treatment of the disorders such as cancers relevant with the propagation disorder with diabetic syndrome.
15. contain claims 1 to 13 described any compound and general pharmaceutical carrier and auxiliary, be used for the treatment of and the endothelin effect disorderly relevant disease combination drug of migraine, asthma or inflammation for example.
16. as the disorderly relevant disease of treatment and endothelin effect, in particular for the treatment and the recycle system disorderly relevant diseases, such as hypertension, local asphyxia, vasospasm and stenocardia, the drug use of disorders such as cancers, migraine and the inflammation relevant with the propagation disorder with treatment, claims 1 to 13 described any compound.
17. as the treatment disease relevant with endothelin effect disorder, and need blended ET AAnd ET BThe drug use of closed treating, claims 1 to 13 described any compound.
18. as the disorderly relevant disease of treatment and endothelin effect, and needs ET optionally AThe drug use of closed treating, claims 1 to 13 described any compound.
19. with one or more of claims 1 to 13 described any compound as active ingredient, be used for the treatment of and the disorderly relevant disease of endothelin effect, in particular for the treatment and the recycle system disorderly relevant diseases, such as hypertension, local asphyxia, vasospasm and stenocardia, and with the treatment diabetic syndrome with breed the use of the medicine of the relevant disorders such as cancers of disorder.
20. as active ingredient, be used for the treatment of and the disorderly relevant for example use of the medicine of migraine, asthma or inflammation of disease of endothelin effect with one or more of claims 1 to 13 described any compound.
21. with one or more of claims 1 to 13 described any compound as active ingredient, be used for the treatment of the preparation process of the medicine of the disease relevant with endothelin effect disorder, wherein preparation process comprises with the vehicle that allows on the pharmacopedics with the mode known per se and the mixing process of one or more above-mentioned active ingredients.
22. described hereinbefore invention.
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